CN102446632B - Optical anode slurry for dye-sensitized solar cell and preparation method thereof as well as optical anode for dye-sensitized solar cell and dye-sensitized solar cell - Google Patents

Optical anode slurry for dye-sensitized solar cell and preparation method thereof as well as optical anode for dye-sensitized solar cell and dye-sensitized solar cell Download PDF

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CN102446632B
CN102446632B CN2011104577298A CN201110457729A CN102446632B CN 102446632 B CN102446632 B CN 102446632B CN 2011104577298 A CN2011104577298 A CN 2011104577298A CN 201110457729 A CN201110457729 A CN 201110457729A CN 102446632 B CN102446632 B CN 102446632B
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titanium dioxide
dioxide powder
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dye
light anode
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CN102446632A (en
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王秀田
曾绍忠
方舟
卢磊
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Chery Automobile Co Ltd
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SAIC Chery Automobile Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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    • Y02E10/542Dye sensitized solar cells
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • Y02E10/549Organic PV cells
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract

The invention discloses optical anode slurry for a dye-sensitized solar cell and a preparation method thereof as well as an optical anode of the dye-sensitized solar cell prepared by utilizing the slurry and the dye-sensitized solar cell, wherein titanium dioxide in the slurry for the dye-sensitized solar cell is the mixture of two kinds of nanoscale titanium dioxides with different particle sizes, the mixture is formed by mixing prepared nano titanium dioxide powder with the particle size of 8-16nm and the specific surface area of 90-100m<2>/g, and P25 titanium dioxide powder proportionally, the optical anode prepared from the slurry fully makes use of the respective advantages of the large particles and the small particles, which ensures that the optical anode has higher optical capture efficiency, but also the photosensitized dye absorption amount is improved, the generation rate and conveying capability of photon-generated carriers are intensified, and the recombination process of the photon-generated carriers is reduced, thus the photoelectric conversion efficiency of the dye-sensitized solar cell is improved. The optical anode slurry, the preparation method thereof as well as the optical anode and the dye-sensitized solar cell provided by the invention are suitable for the high-efficiency preparation of the dye-sensitized solar cell.

Description

A kind of used by dye sensitization solar battery light anode slurry and preparation method thereof, used by dye sensitization solar battery light anode and DSSC
Technical field
The invention belongs to technical field of solar cell manufacturing, be specifically related to a kind of used by dye sensitization solar battery light anode slurry and preparation method thereof, dye-sensitized solar cell anode and DSSC.
Background technology
In global energy resource structure, disposable fossil energies such as oil, natural gas, coal occupy the principal status of public economy.Along with falling sharply and environmental pollution serious day by day of fossil energy, the reproducible energy of exploitation cleaning is extremely urgent.In the foreseeable following time, solar energy does not produce any environmental pollution as the inexhaustible clear energy sources of the mankind, is subjected to the restriction of any geographical environment hardly the mankind.Since the nineties, developed DSSC with the research group headed by the M.Gratzel of engineering institutes such as Lausanne, SUI height, in solar cell market, DSSC has represented a new developing direction of solar cell, have cost low, be easy to make, the relative conversion ratio advantages of higher of light current, though its stability and transformation efficiency were still waiting to improve in present stage, this battery still is considered to have most a class solar cell of application prospect.DSSC is a kind of solar cell based on the development of plant chlorophyll photosynthesis principle, is a kind of solar cell that uses semiconductor material with wide forbidden band.Wide band gap semiconducter itself has higher thermodynamic stability and photochemical stability, yet the non-constant of the ability of catching sunlight, but suitable dyestuff is adsorbed onto on the semiconductor surface, by means of the strong absorption of dyestuff to visible light, semi-conductive spectral response can be widened visible region, this phenomenon becomes semi-conductive sensibilization, and this semiconductor that is loaded with dyestuff is called the dye-sensitized semiconductor electrode.As the carrier of dyestuff absorption, nano titanium oxide since characteristics such as its photostability, nontoxic, high-specific surface area be widely used on the dye cell.
DSSC mainly comprises light anode, photocathode, four parts of dye well electrolyte.At present, photocathode, dye well electrolyte preparation method are compared all comparative maturity, and the height of dye-sensitized cell transformation efficiency depends on the preparation of light anode slurry to a great extent.The slurry of the light anode of DSSC includes the nano titanium oxide of absorbing dye photosensitizer, and nano titanium oxide is not only support and the absorption carrier of opto-electronic conversion active material-dyestuff, also is the transmission body of electronics simultaneously.Each parameter of nano titanium oxide and performance directly influence the adsorbance of the dyestuff in the DSSC, and influence transmission and OR electrolyte the electricity right effective transmission of electronics from dyestuff excitation state to electro-conductive glass, influence electric transmission speed, and then influence the optoelectronic transformation efficiency of dye-sensitized cell.
The preparation of the light anode slurry of DSSC at present, what adopt mostly is the pure slurry of certain particle diameter, or the mode of micron order bulky grain and the short grained combination of nanometer, micron-sized bulky grain can form effective conductive network, and nano level granule can improve the adsorbance of dyestuff with big surface area.But the mixed slurry of this nanoscale and micron-sized titanium dioxide is reunited easily, and the DSSC optoelectronic transformation efficiency that the pure slurry of certain particle diameter or the mixed slurry of nanoscale and micron-sized titanium dioxide are made is low.Present nano titanium oxide particle diameter is many, and P25 is exactly one of them below 100nm, and P25 is can be by the nanoscale crystal titanium dioxide of business procurement acquisition, and particle diameter is about 25nm.In DSSC, the titanium dioxide particle diameter is too big, and the adsorption rate of dyestuff is low, be unfavorable for opto-electronic conversion, particle diameter is too little, and the interface is too many, and interface potential barrier hinders electric transmission, also be unfavorable for opto-electronic conversion, and particle diameter is too little, and therefore the cost of material height should seek appropriate particle size, to reduce cost, increase photoelectric conversion rate.
Summary of the invention
Technical problem to be solved by this invention is nanocrystalline or the P25 titanium dioxide powder is nanocrystalline and mixture micron-sized titanium dioxide crystal prepares the not high deficiency of the DSSC optoelectronic transformation efficiency of slurry at using the P25 titanium dioxide powder in the prior art, a kind of used by dye sensitization solar battery light anode slurry and preparation method thereof is provided, used by dye sensitization solar battery light anode and DSSC, this used as dye-sensitized solar cell photo-anode slurry is used for the making of DSSC, thereby improves the optoelectronic transformation efficiency of DSSC.
The technical scheme that solution the technology of the present invention problem adopts is a kind of light anode slurry of used by dye sensitization solar battery, include ethyl cellulose in this slurry, terpinol and titanium dioxide powder, wherein titanium dioxide powder is the mixture of the Nano titanium dioxide of two kinds of different-grain diameter sizes, to be the P25 titanium dioxide powder mix with the nanometer level titanium dioxide powder littler than P25 titanium dioxide powder the mixture of the Nano titanium dioxide of two kinds of different-grain diameter sizes according to a certain percentage, and the nanometer level titanium dioxide powder littler than P25 titanium dioxide powder is homemade titanium dioxide powder.The nanocrystalline particle diameter of homemade titanium dioxide powder is 8-16nm, and specific area is 90-100m 2/ g; The nanocrystalline average grain diameter of P25 titanium dioxide powder is 25nm, comprising the titanium dioxide granule particle size range be 20-30nm, specific area is 55m 2/ g.Existing oarse-grained Nano titanium dioxide crystal has short grained Nano titanium dioxide crystal again in this slurry.The light anode that is made by this slurry takes full advantage of bulky grain titanium dioxide nanocrystalline and the nanocrystalline advantage separately of small particle titanium dioxide, short grained titanium dioxide nanocrystalline specific area is big, the absorbing dye ability is strong, granule accumulates in the effect that can play connection between the bulky grain simultaneously, thereby improve the connectivity of light anode interior, be conducive to the transmission of electronics, improve the mechanical strength of light anode; Oarse-grained titanium dioxide nanocrystalline interface is few, does not exist the crystal boundary potential barrier to be conducive to electric transmission, but thereby enhanced light scattering increases the optical absorption characteristics that light path realizes increasing the light anode simultaneously.Both guaranteed that the light anode had higher light capture rate, and improved the light-sensitive coloring agent adsorbance, strengthened generation rate and the conveying capacity of photo-generated carrier, reduced the recombination process of photo-generated carrier.
Preferably, the mixture of the Nano titanium dioxide crystal of two kinds of different-grain diameter sizes be the P25 titanium dioxide powder with than the mixed in molar ratio of the little homemade nanometer level titanium dioxide powder of P25 titanium dioxide powder according to 1: 3~3: 1.
More preferably, the P25 titanium dioxide powder with than the mixed in molar ratio of the little homemade nanometer level titanium dioxide powder of P25 titanium dioxide powder according to 1: 2~2: 1.
The present invention relates to a kind of preparation method of light anode slurry of used by dye sensitization solar battery, this method may further comprise the steps:
(1) the nanocrystalline preparation of small particle titanium dioxide powder:
Titanium alkoxide or titanium salt are mixed with acid at normal temperatures, stir to wherein adding water, the water at normal temperature solution, add strong acid in the hydrolysate, then this hydrolysate is put into and heats the reaction that is hydrolyzed in the water-bath, generate colloidal sol, the colloidal sol that generates is transferred in the autoclave reacted, with products therefrom solvent centrifuge washing, drying, it is nanocrystalline namely to obtain the small particle titanium dioxide powder.
(2) preparation of organic carrier
Ethyl cellulose is mixed in proportion with terpinol, and ethyl cellulose is dissolved in the terpinol, thus stir form certain viscosity organic carrier for future use.
(3) preparation of nano titania mixed crystal
Nanocrystalline and the nanocrystalline proportionally mixing of P25 titanium dioxide powder with the small particle titanium dioxide powder of step (1) preparation.
(4) preparation of organic carrier system titania slurry
The nano titania mixed crystal of step (3) preparation is joined in the ethanol, the organic carrier in the step (2) is joined in the compound of ethanol and nano titania mixed crystal, stir and evenly mix the light anode slurry for preparing used by dye sensitization solar battery.
Preferably, one of titanium alkoxide described in the above-mentioned steps (1) or titanium salt are: in butyl titanate, isopropyl titanate, titanium sulfate, the lactic acid titanium ammonium, one of with the acid of titanium alkoxide or titanium salt reaction be: in acetic acid, ethanedioic acid, salicylic acid, the polyacrylic acid, the acid of titanium alkoxide or titanium salt and reaction was according to 2: 1~1: 3 mixed in molar ratio, and the weight of the water of adding is titanium salt or titanium alkoxide weight 3~9 times.
More preferably, the acid of the titanium alkoxide described in the step (1) or titanium salt and reaction was according to 5: 3~3: 4 mixed in molar ratio, and the weight of the water of adding is titanium salt or titanium alkoxide weight 4~6 times.
Preferably, the time of the water at normal temperature solution described in the above-mentioned steps (1) is 0.5h~4h, and the temperature of water-bath is 60~100 ℃ in the water-bath, and the time of hydrolysis is 0.5h~5h in the water-bath.
More preferably, the time of the water at normal temperature solution described in the above-mentioned steps (1) is 1h~3h, and bath temperature is 70~90 ℃ in the water-bath, and the time of hydrolysis is 1.5h~3h in the water-bath.
Preferably, the temperature in the autoclave described in the above-mentioned steps (1) is 180~250 ℃, and the reaction time is 10~36h.
More preferably, the temperature in the autoclave described in the above-mentioned steps (1) is 200~230 ℃, and the reaction time is 18~34h.
Preferably, ordinary-temp hydrolysis is after the regular hour in the above-mentioned steps (1), and the strong acid that adds in the hydrolysate is nitric acid.Collosol and gel reacts products therefrom with distilled water or ethanol centrifuge washing in autoclave, dry down at 70 ℃.
Preferably, the ratio of quality and the number of copies of ethyl cellulose and terpinol is 1: 5~1: 9 in the above-mentioned steps (2), thus both stir form certain viscosity organic carrier for future use.
More preferably, the ratio of quality and the number of copies of ethyl cellulose and terpinol is 1: 6~1: 8 in the above-mentioned steps (2), thus both stir form certain viscosity organic carrier for future use.
Preferably, the small particle titanium dioxide powder that makes according to step (1) described in the above-mentioned steps (3) nanocrystalline with the P25 titanium dioxide powder nanocrystalline according to 1: 3~3: 1 mixed in molar ratio, the weight of the dispersant ethanol that adds in the step (4) is 2~5 times of nano titania mixed crystal weight.
More preferably, the small particle titanium dioxide powder that makes according to step (1) described in the above-mentioned steps (3) nanocrystalline with the P25 titanium dioxide powder nanocrystalline according to 1: 2~2: 1 mixed in molar ratio, the weight of the dispersant ethanol that adds in the step (4) is 3~4 times of nano titania mixed crystal weight.
Preferably, the ratio of quality and the number of copies of the organic carrier that makes in the nano titania mixed crystal described in the above-mentioned steps (4) and the above-mentioned steps (2) is 1: 2~1: 7.
More preferably, the ratio of quality and the number of copies of the organic carrier that makes in the nano titania mixed crystal described in the above-mentioned steps (4) and the above-mentioned steps (2) is 1: 3~1: 5.
The invention provides the light anode slurry by the used by dye sensitization solar battery of above-mentioned slurry preparation method preparation.Titanium dioxide powder in this slurry is the mixture of the Nano titanium dioxide crystal of two kinds of different-grain diameter sizes, to be the P25 titanium dioxide powder mix with the nanometer level titanium dioxide powder littler than P25 titanium dioxide powder the mixture of the Nano titanium dioxide of two kinds of different-grain diameter sizes according to a certain percentage, the nanometer level titanium dioxide powder littler than P25 titanium dioxide powder is homemade titanium dioxide powder, and this homemade titanium dioxide powder is according to above-mentioned method preparation.The nanocrystalline particle diameter of homemade titanium dioxide powder is 8-16nm, and specific area is 90-100m 2/ g; The nanocrystalline average grain diameter of P25 titanium dioxide powder is 25nm, comprising the titanium dioxide granule particle size range be 20-30nm, specific area is 55m 2/ g.
The present invention also provides the light anode of the used by dye sensitization solar battery that uses above-mentioned smooth anode slurry preparation.
Use above-mentioned smooth anode slurry to prepare used by dye sensitization solar battery light anode, then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, namely this DSSC comprises the light anode with the used by dye sensitization solar battery of above-mentioned pulp preparation.
Advantage of the present invention: this slurry preparation method is simple, and equipment needed thereby is simple, and the titania slurry good dispersion is filmed evenly, and nano titania slurry stability is high, and it is not stratified and do not have precipitation to leave standstill the several months, is easy to preserve.With the dye sensitized solar battery anode film that nano titania slurry of the present invention is prepared, have that surfacing, specific area are big, the absorbing dye ability is strong, the space is evenly distributed, and is strong with the substrate adhesion, the optoelectronic transformation efficiency height.The DSSC that the mixed slurry that uses the present invention to prepare is made is at 100mW/cm 2Simulated solar irradiation under the photoelectric conversion efficiency that obtains can reach 6.27%.
Improved the sunlight utilance, the charge carrier that better light conducting faster excites dyestuff to produce improves the electric transmission rate, improves photoelectric conversion rate.Improve Fermi level and the light induced electron transmission rate of light anode, and then significantly improved open circuit voltage.Widened the absorption band of light anode to sunlight simultaneously, made the light anode in transmission electronic, self also absorbs visible light, produces light induced electron, and can make the dyestuff anode slurry of sharing the same light that better energy level matching effect is arranged.
Description of drawings
Fig. 1-P25 titanium dioxide powder nanocrystalline with the embodiment of the invention 1 in the corresponding cell I-V detection of the light anode figure that makes of the slurry that is mixed with of the homemade nanometer level titanium dioxide powder littler than P25 titanium dioxide powder;
Nano titanium oxide in Fig. 2-slurry is that the corresponding cell I-V of light anode of the pulp preparation of P25 titanium dioxide nanocrystalline detects figure entirely;
In Fig. 3-embodiment of the invention 1 the P25 titanium dioxide powder nanocrystalline with present embodiment in the sem photograph of mixture of the homemade nanometer level titanium dioxide powder littler than P25 titanium dioxide powder.
Embodiment
For making those skilled in the art understand technical scheme of the present invention better, below in conjunction with the drawings and specific embodiments the present invention is described in further detail.
Embodiment 1:
Take by weighing the 34g butyl titanate, to wherein adding 6g acetic acid, fully stirring mixes butyl titanate and acetic acid, and then to the water that wherein adds 170ml, water at normal temperature solution 1.5h, hydrolysis takes place in butyl titanate especially easily, reunite, generate oarse-grained titanium dioxide, acetic acid can suppress tetrabutyl titanate hydrolysis, the tetrabutyl titanate hydrolysis reaction speed is slowed down, generate short grained homodisperse hydrolysate.Add nitric acid 5ml in this hydrolysate, nitric acid can make particle diminish, and disperses more even.This hydrolysate put in 80 ℃ the water-bath, reaction 2h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 230 ℃ are reacted 24h down, and the product that hydro-thermal reaction is obtained makes water centrifuge washing, 70 ℃ of dryings obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 94m 2/ g.
The P25 titanium dioxide powder that takes by weighing 3.6g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 3.6g, and both ground and mixed are even, adds ethanol 24ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 4g as bonding agent, take by weighing the terpinol of 32g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
The P25 titanium dioxide powder nanocrystalline with the embodiment of the invention 1 in the homemade nanometer level titanium dioxide powder littler than P25 titanium dioxide powder mixture sem photograph as shown in Figure 3, particle majority big among this figure is that the P25 titanium dioxide powder is nanocrystalline, and little particle majority is that homemade titanium dioxide powder is nanocrystalline.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] 24h in the solution, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency that this membrane electrode is formed.
The P25 titanium dioxide powder that obtains in the above-mentioned steps nanocrystalline with present embodiment in the corresponding cell I-V detection of the light anode figure that makes of the slurry that is mixed with of the homemade nanometer level titanium dioxide powder littler than P25 titanium dioxide powder as shown in Figure 1, from test result as can be seen, the short-circuit current density of battery is 13.58mA/cm 2, open circuit voltage is 0.64V, and fill factor, curve factor is 71.42%, and photoelectric conversion efficiency is 6.27%.
Comparative Examples
The particle diameter of P25 titanium dioxide powder is 25nm, and specific area is 55m 2/ g.The P25 titanium dioxide powder that takes by weighing 7.2g is nanocrystalline, adds ethanol 24ml as dispersant.Take by weighing the ethyl cellulose of 200Pa.s of 4g as bonding agent, take by weighing the terpinol of 32g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] 24h in the solution, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency that this membrane electrode is formed.
By the corresponding cell I-V detection of the light anode figure of the nanocrystalline pulp preparation that makes of P25 titanium dioxide powder as shown in Figure 2, from test result as can be seen, the short-circuit current density of battery is 12.63mA/cm in the above-mentioned steps 2, open circuit voltage is 0.61V, and fill factor, curve factor is 64.92%, and photoelectric conversion efficiency is 5.28%.
Embodiment 2:
Take by weighing the 28.8g isopropyl titanate, to wherein adding the 5.16g polyacrylic acid, fully stirring mixes isopropyl titanate and polyacrylic acid, and then to the water that wherein adds 260ml, water at normal temperature solution 4h.Add nitric acid 5ml in this hydrolysate, nitric acid can make particle diminish, and disperses more even.This hydrolysate put in 100 ℃ the water-bath, reaction 5h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 210 ℃ are reacted 36h down, and the product that hydro-thermal reaction is obtained makes water centrifuge washing, 70 ℃ of dryings obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 90m 2/ g.
The P25 titanium dioxide powder that takes by weighing 14g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 6g, and both ground and mixed are even, adds ethanol 50ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 5g as bonding agent, take by weighing the terpinol of 35g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 3:
Take by weighing 29.4g lactic acid titanium ammonium, to the water that wherein adds 90ml, water at normal temperature solution 1h.This hydrolysate put in 90 ℃ the water-bath, reaction 1.5h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 220 ℃ are reacted 22h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 95m 2/ g.
The P25 titanium dioxide powder that takes by weighing 5.32g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 7.98g, and both ground and mixed are even, adds 20ml ethanol as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 4g as bonding agent, take by weighing the terpinol of 36g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 4:
Take by weighing the 24g titanium sulfate, to wherein adding 8g acetic acid, fully stirring mixes titanium sulfate and acetic acid, and then to the water that wherein adds 150ml, water at normal temperature solution 2.5 hours.This hydrolysate put in 60 ℃ the water-bath, reaction 2h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 180 ℃ are reacted 18h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 100m 2/ g.
The P25 titanium dioxide powder that takes by weighing 1.5g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 4.5g, and both ground and mixed are even, adds ethanol 32ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 7g as bonding agent, take by weighing the terpinol of 35g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 5:
Take by weighing the 34g butyl titanate, to wherein adding the 27g ethanedioic acid, fully stirring mixes butyl titanate and ethanedioic acid, and then to the water that wherein adds 170ml, water at normal temperature solution 1h.Add nitric acid 5ml in this hydrolysate, nitric acid can make particle diminish, and disperses more even.This hydrolysate put in 80 ℃ the water-bath, reaction 3h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 250 ℃ are reacted 12h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 92m 2/ g.
The P25 titanium dioxide powder that takes by weighing 3.5g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 7g, and both ground and mixed are even, adds ethanol 24ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 6g as bonding agent, take by weighing the terpinol of 36g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 6:
Take by weighing 29.4g lactic acid titanium ammonium, to the water that wherein adds 210ml, water at normal temperature solution 0.5 hour.This hydrolysate put in 70 ℃ the water-bath, reaction 1h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 240 ℃ are reacted 24h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 96m 2/ g.
The P25 titanium dioxide powder that takes by weighing 7.98g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 5.32g, and both ground and mixed are even, adds ethanol 50ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 5g as bonding agent, take by weighing the terpinol of 35g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 7:
Take by weighing the 28.8g isopropyl titanate, to wherein adding 3g acetic acid, fully stirring mixes isopropyl titanate and acetic acid, and then to the water that wherein adds 120ml, water at normal temperature solution 1h.Add nitric acid 5ml in this hydrolysate, nitric acid can make particle diminish, and disperses more even.This hydrolysate put in 80 ℃ the water-bath, reaction 2h forms colloidal sol.The colloidal sol that generates is transferred in the autoclave, and 200 ℃ are reacted 12h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, and the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 94m 2/ g.
The P25 titanium dioxide powder that takes by weighing 6g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 3g, and both ground and mixed are even, adds ethanol 18ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 4g as bonding agent, take by weighing the terpinol of 32g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Embodiment 8:
Take by weighing the 24g titanium sulfate, to wherein adding the 8.3g salicylic acid, fully stirring mixes titanium sulfate and salicylic acid, and then to the water that wherein adds 140ml, water at normal temperature solution 3.5 hours, dispersed with stirring is even, directly transfer in the autoclave, 190 ℃ are reacted 10h down, and the product that hydro-thermal reaction is obtained uses ethanol centrifuge washing, 70 ℃ of dryings to obtain required powder, the particle diameter of this homemade titanium dioxide powder is 8~16nm, and specific area is 93m 2/ g.
The P25 titanium dioxide powder that takes by weighing 6.3g is nanocrystalline nanocrystalline with the homemade small particle titanium dioxide powder of the above-mentioned reactions steps of 2.1g, and both ground and mixed are even, adds ethanol 32ml as dispersant in mixture.Take by weighing the ethyl cellulose of 200Pa.s of 6g as bonding agent, take by weighing the terpinol of 36g, the ethyl cellulose that weighs up is mixed with terpinol, ethyl cellulose is dissolved in the terpinol, thereby stirs the organic carrier that forms certain viscosity.This organic carrier is joined in the compound of above-mentioned ethanol and nano titania mixed crystal, obtain the light anode slurry that needs.
Above-mentioned light anode slurry stirred after one hour, this slurry is filmed at electro-conductive glass, with the 450 ℃ of calcinings 30 minutes in Muffle furnace of the electro-conductive glass that coats film, the thickness on the cool to room temperature electro-conductive glass obtains the light anode of dye sensitized nano crystal salar battery between 8~15 μ m.It is 5 * 10 that this light anode is soaked in concentration -4The ruthenium complex N719 dyestuff [English name: RuL of mol/L 2(NCS) 22TBA (L=2,2 '-bipyridyl-4,4 '-dicarboxylic acid)] solution 24h, the light anode is by the abundant sensitization of dyestuff.Then this light anode is docked electrode with platinum, splash into electrolyte, be assembled into battery, its efficient of test under xenon lamp simulated solar light source.The composition of electrolyte is 1MLiI, 0.1MI2, and the 0.5M4-butyl-pyridinium, solvent is butyronitrile and propene carbonate (PC) (volume ratio is 1: 1).Survey efficient and use the xenon lamp simulated solar irradiation, light intensity is 100mW/cm 2(measuring light intensity with the standard silicon photodiode) under this light intensity, records the cell photoelectric conversion efficiency 5.28~6.27% that this membrane electrode is formed.
Be understandable that above execution mode only is the illustrative embodiments that adopts for principle of the present invention is described, yet the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement also are considered as protection scope of the present invention.

Claims (10)

1. the light anode slurry of a used by dye sensitization solar battery, include ethyl cellulose, terpinol, titanium dioxide powder in this slurry, it is characterized in that titanium dioxide powder is the mixture of the Nano titanium dioxide of two kinds of different-grain diameter sizes, the mixture of the Nano titanium dioxide of two kinds of different-grain diameter sizes be the P25 titanium dioxide powder with than the mixed in molar ratio of the little homemade nanometer level titanium dioxide powder of P25 titanium dioxide powder according to 1:3~3:1, wherein, the particle diameter of homemade titanium dioxide powder is 8~16nm, and specific area is 90~100m 2/ g.
2. the light anode slurry of a kind of used by dye sensitization solar battery according to claim 1, the mixture that it is characterized in that the Nano titanium dioxide of two kinds of different-grain diameter sizes be the P25 titanium dioxide powder with than the mixed in molar ratio of the little homemade nanometer level titanium dioxide powder of P25 titanium dioxide powder according to 1:2~2:1.
3. the preparation method of the light anode slurry of any described used by dye sensitization solar battery of claim 1~2 is characterized in that this method may further comprise the steps:
(1) preparation of any described homemade nanometer level titanium dioxide powder of claim 1~2
Titanium alkoxide or titanium salt are mixed with acid at normal temperatures, stir to wherein adding water, the water at normal temperature solution, add strong acid in the hydrolysate, this hydrolysate is put into heats the reaction that is hydrolyzed in the water-bath then, generate colloidal sol, the colloidal sol that generates transferred in the autoclave react, products therefrom with solvent centrifuge washing, drying, is namely obtained described homemade nanometer level titanium dioxide powder
Wherein, one of described titanium alkoxide or titanium salt are: in butyl titanate, isopropyl titanate, titanium sulfate, the lactic acid titanium ammonium, one of with the acid of titanium alkoxide or titanium salt reaction be: in acetic acid, ethanedioic acid, salicylic acid, the polyacrylic acid, the acid of titanium alkoxide or titanium salt and reaction is according to the mixed in molar ratio of 2:1~1:3, the strong acid that adds in the hydrolysate is nitric acid, and the weight of the water of adding is titanium salt or titanium alkoxide weight 3~9 times;
The time of described water at normal temperature solution is 0.5h~4h, and the temperature of water-bath is 60-100 ℃ in the water-bath, and the time of hydrolysis is 0.5h-5h in the water-bath;
Temperature in the described autoclave is 180-250 ℃, and the reaction time is 10-36h;
(2) preparation of organic carrier
Ethyl cellulose is mixed in proportion with terpinol, and ethyl cellulose is dissolved in the terpinol, thus stir form certain viscosity organic carrier for future use;
(3) preparation of nano titania mixed crystal
With homemade nanometer level titanium dioxide powder and the nanocrystalline proportionally mixing of P25 titanium dioxide powder of step (1) preparation, thereby form the nano titania mixed crystal;
(4) preparation of organic carrier system titania slurry
The nano titania mixed crystal of step (3) preparation is joined in the ethanol, the organic carrier in the step (2) is joined in the compound of ethanol and nano titania mixed crystal, stir and evenly mix the light anode slurry for preparing used by dye sensitization solar battery.
4. the preparation method of the light anode slurry of used by dye sensitization solar battery according to claim 3, it is characterized in that the acid of the titanium alkoxide described in the step (1) or titanium salt and reaction according to the mixed in molar ratio of 5:3~3:4, the weight of the water of adding is titanium salt or titanium alkoxide weight 4~6 times.
5. the preparation method of the light anode slurry of used by dye sensitization solar battery according to claim 3, the time that it is characterized in that the water at normal temperature solution described in the step (1) is 1h~3h, bath temperature is 70~90 ℃ in the water-bath, and the time of hydrolysis is 1.5h-3h in the water-bath.
6. the preparation method of the light anode slurry of used by dye sensitization solar battery according to claim 3 is characterized in that the temperature in the autoclave described in the step (1) is 200-230 ℃, and the reaction time is 18-34h.
7. the preparation method of the light anode slurry of used by dye sensitization solar battery according to claim 3, the ratio of quality and the number of copies that it is characterized in that the middle ethyl cellulose of step (2) and terpinol is 1:5~1:9, the nanometer level titanium dioxide powder that makes according to step (1) described in the step (3) and P25 titanium dioxide powder are according to the mixed in molar ratio of 1:3-3:1, the weight of the dispersant ethanol that adds in the step (4) is 2~5 times of nano titania mixed crystal weight, and the ratio of quality and the number of copies of the organic carrier that makes in nano titania mixed crystal and the step (2) in the step (4) is 1:2~1:7.
8. the preparation method of the light anode slurry of used by dye sensitization solar battery according to claim 3, the mass fraction ratio that it is characterized in that the middle ethyl cellulose of step (2) and terpinol is 1:6~1:8, the nanometer level titanium dioxide powder that makes according to step (1) described in the step (3) and P25 titanium dioxide powder are according to the mixed in molar ratio of 1:2-2:1, the weight of the dispersant ethanol that adds in the step (4) is 3~4 times of nano titania mixed crystal weight, and the ratio of quality and the number of copies of the organic carrier that makes in nano titania mixed crystal and the step (2) in the step (4) is 1:3~1:5.
9. the light anode of a used by dye sensitization solar battery is characterized in that comprising that use is according to the light anode of the dye sensitization of solar light anode slurry preparation of the arbitrary described method preparation of claim 3-8.
10. DSSC is characterized in that comprising the light anode of the described used by dye sensitization solar battery of claim 9.
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